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#ifndef MUTEX_H_
#define MUTEX_H_

#define GCC_VER(x,y,z)    ((x) * 10000 + (y) * 100 + (z))
#define GCC_VERSION GCC_VER(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__)

#ifndef __has_include
#define __has_include(s) 0
#endif

#if GCC_VERSION >= GCC_VER(4,4,0) && __GXX_EXPERIMENTAL_CXX0X__
// GCC 4.4 provides <mutex>
#include <mutex>
#elif __has_include(<mutex>) && !ANDROID
// Clang + libc++
#include <mutex>
#else

// partial <mutex> implementation for win32/pthread

#include <algorithm>

#if defined(_WIN32)
// WIN32
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>

#else
// POSIX
#include <pthread.h>

#endif

#if (_MSC_VER >= 1600) || (GCC_VERSION >= GCC_VER(4,3,0) && __GXX_EXPERIMENTAL_CXX0X__)
#define USE_RVALUE_REFERENCES
#endif

#if defined(_WIN32) && defined(_M_X64)
#define USE_SRWLOCKS
#endif

namespace std
{

class recursive_mutex
{
#ifdef _WIN32
    typedef CRITICAL_SECTION native_type;
#else
    typedef pthread_mutex_t native_type;
#endif

public:
    typedef native_type* native_handle_type;

    recursive_mutex(const recursive_mutex&) /*= delete*/;
    recursive_mutex& operator=(const recursive_mutex&) /*= delete*/;

    recursive_mutex()
    {
#ifdef _WIN32
        InitializeCriticalSection(&m_handle);
#else
        pthread_mutexattr_t attr;
        pthread_mutexattr_init(&attr);
        pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE);
        pthread_mutex_init(&m_handle, &attr);
#endif
    }

    ~recursive_mutex()
    {
#ifdef _WIN32
        DeleteCriticalSection(&m_handle);
#else
        pthread_mutex_destroy(&m_handle);
#endif
    }

    void lock()
    {
#ifdef _WIN32
        EnterCriticalSection(&m_handle);
#else
        pthread_mutex_lock(&m_handle);
#endif
    }

    void unlock()
    {
#ifdef _WIN32
        LeaveCriticalSection(&m_handle);
#else
        pthread_mutex_unlock(&m_handle);
#endif
    }

    bool try_lock()
    {
#ifdef _WIN32
        return (0 != TryEnterCriticalSection(&m_handle));
#else
        return !pthread_mutex_trylock(&m_handle);
#endif    
    }

    native_handle_type native_handle()
    {
        return &m_handle;
    }

private:
    native_type m_handle;
};

#if !defined(_WIN32) || defined(USE_SRWLOCKS)

class mutex
{
#ifdef _WIN32
    typedef SRWLOCK native_type;
#else
    typedef pthread_mutex_t native_type;
#endif

public:
    typedef native_type* native_handle_type;

    mutex(const mutex&) /*= delete*/;
    mutex& operator=(const mutex&) /*= delete*/;

    mutex()
    {
#ifdef _WIN32
        InitializeSRWLock(&m_handle);
#else
        pthread_mutex_init(&m_handle, NULL);
#endif
    }

    ~mutex()
    {
#ifdef _WIN32
#else
        pthread_mutex_destroy(&m_handle);
#endif
    }

    void lock()
    {
#ifdef _WIN32
        AcquireSRWLockExclusive(&m_handle);
#else
        pthread_mutex_lock(&m_handle);
#endif
    }

    void unlock()
    {
#ifdef _WIN32
        ReleaseSRWLockExclusive(&m_handle);
#else
        pthread_mutex_unlock(&m_handle);
#endif
    }

    bool try_lock()
    {
#ifdef _WIN32
        // XXX TryAcquireSRWLockExclusive requires Windows 7!
        // return (0 != TryAcquireSRWLockExclusive(&m_handle));
        return false;
#else
        return !pthread_mutex_trylock(&m_handle);
#endif
    }

    native_handle_type native_handle()
    {
        return &m_handle;
    }

private:
    native_type m_handle;
};

#else
typedef recursive_mutex mutex;    // just use CriticalSections

#endif

enum defer_lock_t { defer_lock };
enum try_to_lock_t { try_to_lock };
enum adopt_lock_t { adopt_lock };

template <class Mutex>
class lock_guard
{
public:
    typedef Mutex mutex_type;

    explicit lock_guard(mutex_type& m)
        : pm(m)
    {
        m.lock();
    }

    lock_guard(mutex_type& m, adopt_lock_t)
        : pm(m)
    {
    }

    ~lock_guard()
    {
        pm.unlock();
    }

    lock_guard(lock_guard const&) /*= delete*/;
    lock_guard& operator=(lock_guard const&) /*= delete*/;

private:
    mutex_type& pm;
};

template <class Mutex>
class unique_lock
{
public:
    typedef Mutex mutex_type;

    unique_lock()
        : pm(NULL), owns(false)
    {}

    /*explicit*/ unique_lock(mutex_type& m)
        : pm(&m), owns(true)
    {
        m.lock();
    }

    unique_lock(mutex_type& m, defer_lock_t)
        : pm(&m), owns(false)
    {}

    unique_lock(mutex_type& m, try_to_lock_t)
        : pm(&m), owns(m.try_lock())
    {}

    unique_lock(mutex_type& m, adopt_lock_t)
        : pm(&m), owns(true)
    {}

    //template <class Clock, class Duration>
    //unique_lock(mutex_type& m, const chrono::time_point<Clock, Duration>& abs_time);

    //template <class Rep, class Period>
    //unique_lock(mutex_type& m, const chrono::duration<Rep, Period>& rel_time);

    ~unique_lock()
    {
        if (owns_lock())
            mutex()->unlock();
    }

#ifdef USE_RVALUE_REFERENCES
    unique_lock& operator=(const unique_lock&) /*= delete*/;

    unique_lock& operator=(unique_lock&& other)
    {
#else
    unique_lock& operator=(const unique_lock& u)
    {
        // ugly const_cast to get around lack of rvalue references
        unique_lock& other = const_cast<unique_lock&>(u);
#endif
        swap(other);
        return *this;
    }
    
#ifdef USE_RVALUE_REFERENCES
    unique_lock(const unique_lock&) /*= delete*/;
    
    unique_lock(unique_lock&& other)
        : pm(NULL), owns(false)
    {
#else
    unique_lock(const unique_lock& u)
        : pm(NULL), owns(false)
    {
        // ugly const_cast to get around lack of rvalue references
        unique_lock& other = const_cast<unique_lock&>(u);    
#endif
        swap(other);
    }

    void lock()
    {
        mutex()->lock();
        owns = true;
    }

    bool try_lock()
    {
        owns = mutex()->try_lock();
        return owns;
    }

    //template <class Rep, class Period>
    //bool try_lock_for(const chrono::duration<Rep, Period>& rel_time);
    //template <class Clock, class Duration>
    //bool try_lock_until(const chrono::time_point<Clock, Duration>& abs_time);
    
    void unlock()
    {
        mutex()->unlock();
        owns = false;
    }

    void swap(unique_lock& u)
    {
        std::swap(pm, u.pm);
        std::swap(owns, u.owns);
    }

    mutex_type* release()
    {
        auto const ret = mutex();

        pm = NULL;
        owns = false;

        return ret;
    }

    bool owns_lock() const
    {
        return owns;
    }

    //explicit operator bool () const
    //{
    //    return owns_lock();
    //}

    mutex_type* mutex() const
    {
        return pm;
    }

private:
    mutex_type* pm;
    bool owns;
};

template <class Mutex>
void swap(unique_lock<Mutex>& x, unique_lock<Mutex>& y)
{
    x.swap(y);
}

}

#endif
#endif